A new study from North Carolina State University shows a reproducible way of studying cellular communication among varied types of plant cells by "bioprinting" these cells via a 3D printer.

In a technique known as ceramic omnidirectional bioprinting in cell-suspensions (COBICS), that non-toxic gel is 3D-printed directly into the patient's bone deficit.

The HTFC technology provides label-free, high-resolution 3D imaging in a clinically relevant context—suspended live cells, instead of traditionally used adherent cells.

Researchers from North Carolina State University are bioprinting plants using a 3D printer to understand cell function better.

They 3D-printed microscopic bar codes and an elephant inside living cells, and that too without causing any changes in their DNA. This technique could kickstart a whole new way of studying ...

Researchers at TU Wien have developed a new way to grow cartilage from stem cells and guide it into basically any shape required. The breakthrough could lead to better ways to patch up injuries.

For the first time, a research team at the University of Minnesota Twin Cities demonstrated a groundbreaking process that ...

University of Minnesota researchers developed a 3D-printed scaffold that directs stem cells to grow into functioning nerve ...

Over the past decades, energy engineers have been developing a wide range of new technologies that could power electronic ...

Blender tutorial. Simple way to create 3D text animated introduction video. Timestamp 00:00​ Introduction 00:17 Create and ...